ultrasound in ophthalmology · ultrasound: sound waves above the audible hearing range. over 20 khz...
TRANSCRIPT
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ULTRASOUND IN OPHTHALMOLOGY
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ULTRASOUND:
Sound waves above the audible hearing range. Over 20 kHz or 20,000 cycles per second.
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FREQUENCY: Number of cycles per second. The depth of penetration is inversely proportional to the frequency of the ultrasonic wave.
FREQUENCY
DEPTH OF PENETRATION
High frequency, shallow ophthalmic 8 to 20 MHz
Low frequency, deep body scanners 2.5 to 5 MHz
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VELOCITY: The speed at which sound travels through a medium.
Water 1480 m/sAir 330 m/s
Cornea 1550 m/sAqueous/Vitreous 1532 m/sClear lens 1640 m/sCataract lens 1590-1670 m/sSoft tissue 1550 m/s
DISTANCE (millimeters)=TIME (second) x VELOCITY (m/s)
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TRANSDUCER: A device that converts energy from one form to another. For ultrasound it converts electrical energy (voltage) into mechanical energy (ultrasonic waves).
Conversely the ultrasonic transducer also converts reflected sound waves into electrical signals that are processed and displayed.
Voltage IN
(from pulser)
transducer
Generated sound energy to tissues
Voltage OUT(to receiver)
transducer
Reflected sound energy from tissues
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ULTRASONIC BEAM CHARACTERISTICS
FocusedAccomplished by an Acoustic Lens
Unfocused
Parallel
Best resolution around here
Shape:
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ANATOMY OF AN ECHO:
Peak
Baseline
Leading or Rising Edge Trailing or Falling Edge
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FACTORS THAT AFFECT AMPLITUDE AND BRIGHTNESS:
1) ANGLE OF INCIDENCE
transducer
transducer
transducer
Largest Echo
Smallest Echo
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FACTORS THAT AFFECT AMPLITUDE AND BRIGHTNESS:(Continued)2) Acoustic Impedance Differences
Vitreous Blood
transducer
Vitreous Detached Retina
The larger the difference between the tissue types at an interface, the greater the reflected energy
Biggest Echo
Small Echo
transducer
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FACTORS THAT AFFECT AMPLITUDE AND BRIGHTNESS:(Continued)3) Texture and shape of surface
Smooth surface
Coarse surface
Small Interface
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BASIC COMPONENTS OF AN ULTRASOUND DEVICE Transducer
Pulser Receiver
Amplifier
Signal Processing
Display
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A-SCAN (amplitude mode)
• height of the echoes: determined by perpendicularity and acoustic impedance.
• distance between echoes: determined by the time it takes the sound to travel through the various structures in the eye.
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Anterior and Posterior surface of Cornea
Anterior surface of lensPosterior surface of lens
Retina
ScleraVitreous
Anterior Chamber
A-SCAN
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• A-Scans are used to measure the axial length of the eye for determining the proper power of the intraocular lens to be implanted. Typical axial length measurements are from 21-26 mm.
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To get the best A-Scan results:
1) No air bubbles in probe2) Perpendicularity3) Do not indent cornea4) Input eye type (phakic, aphakic, pseudophakic)5) Corneal gate should be to the left of Corneal
spike6) Retinal spike should be well defined and
perpendicular6) Repeat results
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Inaccurate Scan ( Measured > actual)
Retinal spike is not well identified
SCAN EXAMPLES
90°
Normal Scan
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• Inaccurate Scan (< actual)
Corneal spike is placed outside the corresponding gate
• Inaccurate Scan (> actual)
Air bubble present in probe
Air bubble
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• Tumors Possible tumor or underlying blood
• Retinal Detachment
RetinaWide Space
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• Nuclear cataractLens Nucleus
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B-SCAN (brightness mode)
Two dimensional brightness evaluation.
• Each reflected wave is translated into a spot on the screen.
• Each spot corresponds positionally to the location of the point in the eye from which the wave is being reflected.
• The brightness of the spot is proportional to the amplitude of the reflected wave.
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The transducer sweeps back and forth.
The ultrasonic beam is equivalent to a knife blade, exposing a cross section of the cut object.
B-SCAN
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B-SCAN EXAMPLE
RetinaLens
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PHACOEMULSIFICATION
• Used to remove cataracteous lenses from the eye.
• A probe is vibrated at the ultrasonic frequency of about 40 KHz breaking up the lens into small particles.
• The small particles are drawn out of the eye by a suction system through the probe’s hollow center, aided by an irrigation solution.
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Small incision
Aspiration
Irrigation
Cataract
Vibrating Tip